8) Consider a GSM uplink (900 MHz). The MS has 100-mW transmit power, and the sensitivity of the BS RX is -105 dBm. The distance between the BS and MS is 500 m. The propagation law follows the free-space law up to a distance of dbreak = 50 m, and for larger distances the receive power is similar to (d/dereak)* 2. Transmit antenna gain is -7 dB; the receive antenna gain is 9 dB. Compute the available fading margin/fading losses. (Hint: use link budget formula).
8) Consider a GSM uplink (900 MHz). The MS has 100-mW transmit power, and the sensitivity of the BS RX is -105 dBm. The distance between the BS and MS is 500 m. The propagation law follows the free-space law up to a distance of dbreak = 50 m, and for larger distances the receive power is similar to (d/dereak)* 2. Transmit antenna gain is -7 dB; the receive antenna gain is 9 dB. Compute the available fading margin/fading losses. (Hint: use link budget formula).
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Transcribed Image Text:8) Consider a GSM uplink (900 MHz). The MS has 100-mW transmit power, and the sensitivity of the BS
RX is -105 dBm. The distance between the BS and MS is 500 m. The propagation law follows the
free-space law up to a distance of dbreak = 50 m, and for larger distances the receive power is similar
to (d/dbreak).2. Transmit antenna gain is -7 dB; the receive antenna gain is 9 dB. Compute the
available fading margin/fading losses. (Hint: use link budget formula).
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